Wrapping material measuring device



Dec. 31, 1940 H. H. MOHL 2,227,398

WRAPPING MATERIAL MEASURING DEVICE Filed July 14, 1959 s Sheets-Sheet 1 4 A 5 A ,2 y 2 2 l V A ,6 W i 2 f L 2 if I r .E J W .1 1 .3 J INVENTOR Hmwwld Hm Mofil' ATTORNEYS Dec. 31, 1940.

H. H. MOHL WRAPPING MATERIAL MEASURING DEVICE Filed July 14, 1939 3 Sheets-Sheet 3 INVENTOIR Harold If. BY u Maw V 711% MWRNEMS Patented Dec. 31, 1940 NITED STATES PATENT OFFICE Harold H. Mohl, Davenport, Iowa, assignor to Micro-Weston, Ina, Bettcndori, Iowa, 2. conporation of Delaware Application July M, 1939, Serial No. ltt lfiw 7 Claims.

This invention relates to improvements in devices for automaticallymeasuring and feeding 'a proper amount of wrapping material for wrapping articles which may vary considerably in size and contour.

In the wrapping of articles by machine it is very desirable to be able to feed articles of the same character, but which may have slight irregularities in certain dimensions, into the machine, and have a means to automatically proportion the amount of wrapping material for the articles individually according to the dimensions of each article.

It is, therefore, an object of the present invention to provide an improved wrapping material measuring and feeding device which will automatically determine the correct amount of wrapping material for anarticle to be wrapped and will feed said correct amount.

Another object is to provide a wrapping material measuring and feeding device which is readily adjustable for articles having varying characteristics so that a great variety of articles may be wrapped on a single machine without waste of the wrapping material.

A further object is to provide a device of the type mentioned which will accurately measure differences in the dimensions of irregular articles but will operate upon very simple principles so that it may be used efiiciently and still maintain ease of operation.

Other objects and advantages will become apparent from the following detailed description accompanied by the drawings, in which like parts throughout the several views are indicated by the same reference numerals.

In the accompanying drawings,

' Figure 1 is a somewhat diagrammatic view of the infeed portion of a wrapping machine illustrating how one type of article may be measured and a suitable amount of wrapping material fed for the wrapping of such article;

Fig. 2 is a view similar to Fig. 1 but showing how a measuring device embodying the present invention is responsive to changes in the height and width of articles; and

Fig. 3 is a view similar to Fig. 1, illustrating how the device may be readily adjusted for articles having difierent characteristics;

Fig. 4 is a plan view with parts removed showing a mechanism which may be used to carry out the principles embodied in the present invention;

Fig. 5 is an enlarged transverse elevational view across the infeed conveyor of a wrapper machine showing the latch mechanism for the ar- (Cl, till-t) ticle measuring device and taken substantially on line %5 of Fig. a;

Fig. 6 is an enlarged fragmentary detail view of a clutch and brake mechanism for the wrapping material feed rollers shown in Fig. 4;

Fig. 'l is a fragmentary sectional view taken substantially on line 'l-l of Fig. l, illustrating the article measuring device and the wrapping material feeding means;

Fig. 8 is an enlarged fragmentary detail showing the latch mechanism for the article measuring device and taken substantialy on line 8-& of Fig. 5;

Fig. 9 is a fragmentary plan view of the latch mechanism shown in Fig. 8 showing details thereof; and I Fig. 10 is a, fragmentary plan view taken substantially on line l0-l0 of Fig. '7 illustrating the mechanism for adjusting the overlap of the sheet of wrapping material.

. Mechanism suitable for carrying out the present invention is shown in detail in the co-pending application of Arthur A. Kottmann, Serial No. 203,865, filed April 23, 1938. To practice the present invention, however, any suitable apparatus may be used.

The present invention will be described in connection with its application to the wrapping of articles of a commercial bakery. such as, for example, loaves of bread, cakes, pans 0! rolls, and the like, but, of course, the invention may be applied to the wrapping of other types of articles, too numerous to mention.

In the wrapping of articles such as loaves of bread, it is common practice to feed the articles sideways, that is, with their lengths at right an-.

gles to the direction of travel. Then, since most loaves having the same characteristics are of uniform length, the wrapping material may be fed from web rolls having a width suitable for the length of the loaves. According to this description of the present invention, therefore, the length of wrapping material, severed for any particular loaf and suitable to enclose such loaf, is measured to correspond with the height or width or the height and width of the loaf. However, it is contemplated that the present invention may be applied to wrapping machines in which the loaves are fed into the wrapping mechanism lengthwise.

Briefly, a practical way of carrying out the present invention is to provide an actuator for the wrapping material feed mechanism such that wrapping material will be fed for a predetermined period of time suitable to provide a sufficient quantity of wrapping material for a typical article having the same general characteristics as the succession of articles which it is desired to wrap. It has been found preferable to feed wrapping material, during the travel of the article advancing member, from a variable point determined by the article measuring device, said article measuring device being connected to the wrapping material feed actuator, to a set or predetermined point in the travel of the article advancing member. By arranging the article measuring device so that articles of varying height and width cause the actuator to start the wrapping material feed at the appropriate time, the amount of wrapping material will be determined by the distance between the location of the article advancing member when the article causes the actuator to start the wrapping material feed, and the fixed location of the article advancing member when the wrapping material feed is stopped.

Thus it may be seen that if the article measuring device, upon contact of the article, causes the actuator to start the wrapping material feed while the measuring device is disposed in a plane which makes an angle of approximately 45 with the surface along which the article is advanced, any changes in the height or width or in the height and width of an article from a typical article, cause the actuator to start the feed of wrapping material when the article is closer or farther away from the device a distance equal to such change in height or width. Further, if at the same time the wrapping material is fed at a speed such that its lineal speed is twice the lineal speed of the article along its supporting surface,

the lengths of additional paper fed will be twice the change in height or width of the article. This insures accurate measurement of a correct amount of wrapping material for each successive article because any change in height or width, or height and width of the article causes a change in the length of the perimeter of the article equal to twice the change in height or width.

Referring now to Figure l, a typical article A is shown on a suitable article support I, being propelled therealong by an article advancing member or fiightZ which moves at a uniform speed at least during the time that it is advancing articles along the support I. An article measuring device 3, in the form of a substantially fiat blade, depends above the support I, being pivotally mounted as indicated at the numeral 4. The flight 2 advances the article along the support I and when the article engages the measuring device 3 and the measuring device is at an angle 1,! of approximately 45 with the surface of the support l, as shown in full lines in Fig. 1, the device 3 causes the actuator (not shown) to start the feed-of wrapping material. The wrapping material is fed during the period that the flight 2 moves from its full line position to its dotted line position, indicated at E in Fig. 1, at whch point the feed of wrapping material is automatically stopped. Thus wrapping material is fed during the time the flight moves from its full line position to its dotted line position, that is, wrapping material will be continuously fed while the flight 2 moves the distance indicated by the letter S.

The point E has previously been established at a distance K from the pivot point ll of the measuring device 3 so that the distance S is proportional to the correct amount of wrapping material for the typical article A. The distance 8' will be equal to one-half of the perimeter of the article A, plus a length suflicient to provide a suitable overlap.

Of course an overlap adjustment may be provided on the machine if desired as shown and described in detail in the above mentioned copending application.

Then with the distance K maintained constant, articles having the same general characteristics as the article A but which may vary in height or width or height and width, may be passed through the machine and an accurately measured length of wrapping material will be provided for each of said articles. For example, in Fig. 2, an article B having the same height but of a greater width than article A, is shown. Wrapping material, therefore, will be continuously fed while the flight 2 passes from its full line position to its dottedline position at E (Fig. 2) and a length of wrapping material proportional to the distance W will be withdrawn.

The difference in width between articles A and B is the distance W minus S (W-S), and the difference in length of wrapping material of articles A and B will be two times the quantity W minus S [2(W-S) Similiarly, the article C, being of the same width as the typical article A but of less height, will have wrapping material fed therefor proportional to the distance H. The difference in height between articles A and C is S minus H (S-H), and the difference in length of wrapping material withdrawn will be two times the quantity S minus I-I [2(S-H) When it is desired to wrap a succession of articles having general characteristics difiering from the article A, such as, for example, the article D in Fig. 3, which has rounded surfaces at the top portions thereof, it is only necessary to change the distance K to a distance K suitable for a typical article of such series, and then all other articles of that series may be passed through the wrapping material, and each article will be accurately measured for changes in height or width or height and width. .In Fig. 3 this has been accomplished by moving the point 4 from its dotted line position to its full line position, where the distance K measures a correct amount of wrapping material for a typical article of the series having the characteristics of article D. Wrapping material for the article D will be fed during the time that the flight 2 moves from its full line position in Fig. 3 to its dotted line position at E, feeding a length of wrapping material proportional to the distance R.

It has been found in practice that relatively small deviations, such as 2 or 3 degrees or so from the 45 angle y formed by the measuring device 3 and the surface of the support. l, do

A suitable mechanism for carrying out the,

principles of the present invention is illustrated in Figs. 4 to 9, inclusive, which show the mechanism employed in the previously mentioned copending application of Arthur A. Kottmann. In this mechanism the infeed conveyor to the wrapping machine (Figs. 4 and 7) includes a pair of spaced parallel supporting members H30 and lpl.

which may be suitably formed of channels disposed in opposed relation so that the channels of the members open toward one another.

The

lil

hil

iii)

supporting members are carried by frame F of the wrapping machine by suitable means (not shown) and are provided at the wrapping machine end of the conveyor with fittings which serve as journals for a. transverse driven shaft i tit (his. 7) which carries conveyor chain sprockets itt which are substantially in alignment with the members ii!!! and ltl. Conveyor side chains iilt are carried in spaced parallel relation by the sprockets itt and by a similar pair of sprockets (not shown) mounted on a transverse shaft at the opposite end of the conveyor.

.lhxtendina between and carried by the uppermost danees oi the supportins members itt and tilt is an article supporting apron i. The end at the apron i at the wrapping machine end oi the conveyor is referred to as the inieed station oi the wrappina machine since it is here that articles nrst ensase wrapping material and are removed irom the conveyor for the wrapplna operations. The portion of the apron i which forms the inieed station is above the shaft itli and the corner marginal portions are removed (El ie. ii to'provide recesses which accommodate the conveyor belt sprockets ltd.

' The endless conveyor belts or chains itt carry between them at uniformly spaced intervals, transverse "iiiehts i it having upstanding auxiliary pusher plates i. The sprockets iilt secured on shaft lit are rotated in synchronous timed relation and maintain the flights in proper transverse position across the conveyor apron. The shait lit extends beyond one oi? the sprockets so that drivine power may be applied thereto to rolate the shai't and the sprockets in synchronisation with other portions of the wrapping machine.

Wrapping material may be supplied in one or more continuous sheets or webs from suitable rolls (not shown). The free end of the wrappins' material passes between a pair of feed rollers iii and 2. Bottom feed roller 2m comprises a tubular member of suitable material carried on a shaft 246 journaled in the side frames. The top or small feed roller 2" is carried in a suitable manner above the feed roller MB and is driven by it. The roller 2" carries at spaced intervals circumferential bands 250 formed of a soft elastic material such as rubber. These bands space the feed roller 2II from the feed roller M8 and frictionally engage the wrapping material P between the rollers.

One end of the shaft 246 of the bottom feed roller extends beyond its journal in the side irame F and carries a hand wheel 210. This wheel has a hub 21! mounted on the shaft 246 and secured against rotation by a key (Fig. 6). The hand wheel m is spaced from the side irameto provide room on the shaft 245 for a clutch sleeve 212 having a rigidly disposed flange tit on the end thereof adjacent the hand wheel hub. This sleeve is freely rotatable on the shaft tilt and rides on an anti-friction bushing 218. h sprocket 217 is carried by the clutch sleeve and is loneitudlnally slidable thereon, being secured asainst relative rotation. by a key 218. A ball thrust bearing assembly'28i is mounted on the clutch sleeve in between the radial flange 215 and an annular collar 282 carried by the eloneateol hub portion of the sprocket 217. The bearlns assembly is enclosed in a collar 21b, having an inwardly directed flange engaged by the collar lti'. The sprocket 211 is connected by'a chain belt 283 (Fig. 4) to a driving sprocket (not shown) which is secured on a continuously rotatins driving shaft. The flange 215 of the clutch sleeve is provided with a toothed clutch disk element rat and a matina toothed clutch disk element its is carried by the hub ill or the hand wheel. These clutch elements have opposing laces provided with fine radially extending teeth itl. The direction oi rotation oi the sprocket 211 and the confieuration or slope oi the races of the teeth dbl are such that when the clutch elements are brought into ensasemeht, a driving connection is established between the driving shalt and the wrappina material iced rollers iii and 2", so that the latter are rotated to iced wrapping material irom left to right as viewed in Figs, 4 and l.

annular bosses, diametrically opposed to one another, are iormed on the annular collar 219 for connection to the ends or a yoke lltt carried on one end of a clutch actuatina lever bit. This lever is pivotally mounted on a stud T93 carried by a bracket secured to the side irame oi the machine adjacent the strait hit. The oscillation in a horizontal plane oi the clutch actuating lever tti is controlled in a manner to be hereinafter described and brings the clutch element tilil, driven at a constant rotational velocity by the sprocket ill, into and out at eneasement with the clutch element tilt having a driving connection with the shalt t lt, thus starting and stopping the wrapping material iced rolls til k and lit.

When the clutch elements tilt and ltd are disengaged the iced rolls iii and lit may be freely rotated in either direction by the hand wheel 210, so that the web P may be readily threaded.

As an article is advanced over the apron l toward the inieed station of the wrapping machine, it engages the article measuring device 3 which is carried by a pivot bar Mil, which is in turn journalcd in and supported by brackets M3 and 4M secured respectively to the supporting members Hill and till. Preferably, each of these brackets has a ball bearing journal, indicated at H5 (Fig. 9), to receive an end of the pivot bar All! in order that the latter may rotate with a minimum of friction. The pivot bar is supported with its axis at substantially right angles with respect to the direction of movement 01 articles over the infeed conveyor and a sufilcient distance above the apron i so that the largest articles intended to be packaged will have adequate clearance thereunder.

The latch mechanism, illustrated in detail in Figs. 8 and 9, is carried by the pivot bar 401. This latch comprises a quadrant lit positioned transversely of the axis of the pivot bar and rotatably carried on the latter by hub M1. The hub All is positioned on the end of the pivot bar Ml adjacent the ball bearing journal H5 oi the bracket ill and is held against longitudinal sliding movement on the pivot bar by a clamping hub member M8 which is secured to the pivot bar till by means of a tightening bolt tit. Extending radially from the hub did is an arm 420 having an aperture in its extremity to slidably receive the threaded end oi an adjusting bolt til. The opposite end at the bolt Ml is thread- =ably secured in an extension did on the quadrant is retained in adjusted position with respect to the pivot bar 401. This construction permits the article measuring device 3 to be adjusted angularly with respect to the article supporting apron I.

To maintain the article engaging member 3 in its normal position as shown in dotted lines in Fig. '7, the arm 420 carries a dog 448 (Fig. 9) which is arranged to engage an inwardly extending lug 449 on the bracket M3. Thus, after the article measuring device 3 has been released by an article it may swing downwardly until the dog 448 engages the lug 449 and holds it in its normal position.

Referring to Fig. 4, the long arm of the clutch actuating lever 29! is urged toward side frame F by a compression spring 425 carried on a rod 42% extending through an aperture in the lever, 295 and screwed into the side frame. The free end of the clutch actuating lever 29! extends upwardly and is bifurcated at 42? (Fig. 7) to receive a tie rod 428. The end of the tie rod 42s is threaded to receive a pair of nuts which are disposed on opposite sides of the lever 29l (Fig. 4). A compression spring 429 is carried by the tie rod 428 between the outer nut and the lever 29!. The tie rod 428 extends through apertures in the side frame F and supporting members E98 and NH, and terminates in a clevis 435 (Fig. 5) adjacent the bottom portion of the bracket 4B3 secured to the supporting member lfiil.

Pivoted at 43! to the bracket M3 is a latch lever 432 having an angularly disposed arcuate shaped foot 433 with its center of curvature at the pivot. Heel 434 of the.lever normally engages a marginal portion of the quadrant M6 and retains the latch 432 in an upright position as indicated by the full lines'of Fig. 5. The end of the latch opposite the foot 433 is pivoted in the clevis 430, and the end of the clutch actuating lever 29! engaged by the end of the tie rod 428 is held outwardly away from the side frame 6 against the compression of the spring 425. In this position the clutch elements 284 and 285 are disengaged so that there is no driving engagement between the sprocket 21'! and the wrapping material feed rolls 2!! and 2l8. The position of the quadrant 4 I 6 on the pivot bar 49'! is arranged so that when the wrapping material advancing clutch is thus held in disengaged position the member 3 is suspended in article engaging position over the infeed conveyor apron I.

Upon being engaged by an article moving over the conveyor apron the member 3 is rotated from its normal position shown in dotted outline in Fig. 7 in a clockwise direction toward its full line position shown in Fig. '7. -This movement of the member 3 rotates the pivot bar 40! in a counterclockwise direction as viewed in Fig. 8. Upon suflicient movement in' this manner radial or latch releasing edge 435 of the quadrant 4!6 moves beyond the heel 434 of the latch lever 432 so that the .latter is released and moves to the broken line position indicated in Fig. 5. At the moment of release the member 3 is at an angle of substantially 45 with the article supporting apron, as shown in full lines in Fig. 7. This movement of the latch lever is energized by the compression spring 425 through the clutch actuating lever 29! and tie rod 428. Movement of an article past the member 3 releases the latter to fall or rotate downwardly by gravity. The foot 433 of the latch lever 432 engages the edge 435 of the quadrant to prevent the quadrant from moving past the latch lever in the event that the latch lever has not been returned to its vertical position, as will be hereinafter described. Release of the latch lever by the quadrant 4l6 permits the clutch actuating lever 29! to pivot at 293 under theinfluence of spring 425 and slide the clutch sleeve 212 along the shaft 246, thus engaging the clutch elements 284 and 285 to energize the feed rolls through the sprocket 21'! and chain belt 283.

The feed rolls 2!! and 2H3 advance wrapping material until the long arm of the clutch actuating lever 29! is moved outwardly away from the side frame F to disengage the clutch elements 284 and 285. This disengagement of the clutch is accomplished by a lever arm 436 (Fig. 4) which moves in an arcuate path and carries on its extremity roller 438. As the lever 435 moves to its dotted line position shown in Fig. 4, the roller 438 engages a cam member 440 adjustably secured to the clutch actuating lever 29! adjacent the compression spring rod M9 and arranged so that the cam member 440 faces toward the side frame 5. On the frame opposite the cam member 446 is formed a cam roller guide or pad 442 which is engaged by the roller 438. The cam member 440 and the cam roller guide 442 are arranged so that upon movement of the clutch release arm 436 into the dotted line position illustrated in Fig. 4, the clutch actuating arm 29! is kicked outwardly away from the side frame F sufficiently to disengage the clutch elements 284 and 285 and move the tie rod 428 to the right as viewed in Fig. 5, so that the latch lever 432 is raised from the broken line position to the solid line position. This pivotal movement of the latch lever carries the foot 433 and heel 434 thereof beyond the latch releasing edge 435 of the quadrant 4"), thus permitting the pivot bar 40'! to rotate to its normal position as the member 3, previously released by the article, falls by gravity to its normal position. Upon movement of the clutch release arm 436 from between the cam member 44! and cam roller guide 442, the clutch actuating arm 29! is retained in its outer position by the tie rod 428 which is held to the right as viewedin Fig. 5 against the compression of spring 425 by the latch lever 432 which is held in its vertical solid line position by the quadrant 4!6 against positioned in front of the heel 434 of the latch lever.

The reciprocable movement of the clutch arm 436 from its dotted line position to its full line position in Fig. 4 is timed with respect to the remainder of the wrapping machine mechanism so that it disengages the feed roller clutch at a definite point in-th-e wrapping cycle, and when a flight advancing an article on the infeed conveyor past the member 3 is in a definite position with respect to the infeed station and said member. The position of the flight at the moment of release is designated by E in Figs. 1-3.

Since the movement of the clutch actuating lever 29! caused by the engagement between the cam member 440 and the release arm 436 only (Fig. 4). This brake comprises an adjustable supporting bracket 45| (Fig. 6) carried by the clutch release lever 2! adjacent the pivot 293. it. brake shoe are provided with a suitable lining oi" asbestos or other suitable friction material is carried by a cylindrical plunger 45'! received within a cylindrical aperture formed in the bracket dbl and having an axis in the rotational plane of the hand wheel tit. The cylindrical aperture in the bracket dbl is of sufficient depth to accommodate a compression spring dbt carried by a rod ltt i'ormed as an extension of the plunger lt'l and coaxial therewith. This rod extends through an aperture in the braclret and has an enternal end threaded to receive a holding nut lth. The plunger dbl and rod dtd are thus movably secured by the bracket dbl and resiliently urged toward the hat friction face lbll the hand wheel tilt by the spring lbt. An entellrsion ltil oi the braclret has a hat iace which engages a side of the shoe ltt to prevent rotational movement of the plunger and shoe with respect to the bracket. By adjustment of the nut ltli on the threaded end of the rod ltli the brake shoe tilt can be moved toward and away from the triction surface tit oi the hand wheel. This adjustment is regulated so that just prior to engagement of the teeth of the clutch elements tilt and liti'i effected by the pivotal movement of the clutch actuating lever tti, the bralre releases the hand wheel tit. Reverse pivotal movement oi the lever itl brings the brake into engagement til.

bar till.

with the hand wheel immediately after disengagement oi the clutch elements 2M and ttt.

Thus there is a substantially positive control of the feed rollers so that the wrapping material is accurately advanced during an interval which is determined in accordance with. the size of the article for which the particular sheet being advanced is intended.

The adjustment to regulate the amount of overlap (shown in Fig. 3 as a variation of the distance K to K and there obtained by moving the pivot point 4) may be accomplished with.substantially the same results by bodily moving the article measuring device 3 in approximately a horizontal direction away from the pivot point i. To obtain this movement the article measuring device 3 is mountedon a pair of parallel rods tti which are in turn secured to an adjustable bracket 404. The bracket #08 is slidably mounted on spaced parallel supporting rods 405 which are secured to a bracket member 406 clamped to the pivot bar 401. A threaded rod 408 having a knurled knob M9 is rotatably mounted in spaced journal bosses Mil car ied by the bracket member tilt and has threaded engagement in the adjustable bracket M14. By turning the knurled lrnob M9 the threads on the rod 4M cause the adjustable bracket 4% to move along the parallel rods tilt toward and away from the pivot Movement of the adjustable bracket lii l to the left as viewed in Figs; 4, '7, or 10 advances the article engaging plate 3 in the direction oi article movement, delaying the start of wrapping material feed and reducing the length oi the sheet of wrapping material 'fed, thus decreasing the overlap. Also movement oi the adjustable bracket fltfl to the right, as viewed in Figs. ti, 7, or 10, carries the device 3 so that it will be engaged earlier by the articles advancing to the wrapping mechanism and a proportionateveyor apron I by one of the flights H1 engages the member 3 of the article measuring mechanism and causes the latch lever #32 to be released by the quadrant MB, Fig. 5, permitting the compression spring 425 to pivot the clutch actuating arm 29! (Fig. l), thus causing engagement between the clutch elements 284 and 285 and establishing a driving connection to rotate the feed rolls til and zit. These teed rolls instantanecusly commence the ieeding of wrapping material and continue the feeding until the flight i H, which advances the article causing the actuation of the wrapping material fed, reaches the predetermined point E previously discussed. At this point the movement oi the clutch actuating lever till, caused by the clutch release arm ltt, disengages the clutch elements w ll and W5 and stops the feed rolls ill and tilt, the brake 455 engaging the hand wheel tit.

Thus it may be seen that the present invention provides an article measuring and feeding device for wrapping machines which measures accurately a correct amount of wrapping material corresponding'to the height or width or height and width or articles being wrapped. Furthermore, when articles having the same general characteristics are being wrapped it is not necessary to grade the same as the mechanism embodying the present invention will automatically take care of any individual articles which vary considerably in their dimensions.

It is contemplated that the principles of this invention may be applied to a measuring and ieeding device which works in reverse order from that described. That is, the wrapping material may start to feed automatically at a predetermined point and the measuring device be constructed to stop the wrapping material reed according to the size of the loaf. Operation of such a modification will in other respects be substantially identical.

Furthermore, it is to be understood that the other variations and modifications of the specific devices herein shown and described for purposes of illustration and explanation, may be made without departing from the spirit of the present invention.

What I claim is:

1. In a wrapping machine having means for advancing articles into the wrapping mechanism, wrapping material feed means adapted to feed lengths of wrapping material at a lineal speed twice the lineal speed at which articles are advanced by the advancing means, a measuring device responsive to changes in both the height and width of articles which comprises an actuator for said wrapping material feed means having a member disposed in a plane and adapted to contact the article to be measured, said member actuating said wrapping material feed means when disposed at an angle or approximately 45 with the plane along which the article is traveling and in contact with the article. 2. In a wrapping machine the combination of means for feeding wrapping material at a lineal speed approximately twice the lineal speed at which articles are advanced, and an actuator for said feeding means to start the feed means when the article to be measured contacts the actuator at a point where the plane of the actuator is disposed at an angle of approximately 45 with the plane over which the article moves.

3. In a wrapping machine having means for advancing articles into the wrapping mechanism, a continuous supply of wrapping material from which individual sheets may be severed, means for feeding wrapping material drawn from said supply, a control means adapted to actuate said feeding means for a length of time sufficient to feed enough wrapping material for a typical article, and means for feeding a length of wrapping material longer by twice the total increase in height and width of an individual article than the length of wrapping material for the typical article.

4. In a wrapping machine having means for advancing a succession of articles into the wrapping mechanism, wrapping material feed means adapted to feed lengths of wrapping material, a control means adapted to actuate said feed means for a time to feed sumcient wrapping material to suitably enclose a typical article of the succession, and means operable by individual articles of the succession to feed a length of wrapping material less by twice the total decrease in height and width of the individual article than the length of wrapping material for the typical article.

5. In a wrapping machine having means for advancing a succession of articles into the wrapping mechanism, wrapping material feed means adapted to feed lengths of wrapping material, a control means adapted to actuate said feeding means for a length of time to feed sufiicient wrapping material to suitably enclose a typical article of the succession, means operable by individual articles of the succession to feed a length of wrapping material longer than the length of wrapping material for the typical article by twice the total increase in the height and width of the individual article over the height and width of the typical article, and means operable by individual articles of the succession to feed a length of wrapping material less by twice the total decrease in height and width of the individual article than the length of wrapping material for the typical article.

8. In a wrapping machine having means for advancing articles to the wrapping mechanism, wrapping material feed means which feeds wrapping material at a lineal speed equal to twice the lineal speed of articles being advanced toward the wrapping mechanism and is arranged to stop the wrapping material feed when the article advancing means reaches a predetermined point in its path, and an actuator for starting the feed of said wrapping material having an article contacting member which is disposed at an angle of with the plane along which the articles are being advanced at the instant when the wrapping material feed is actuated.

7. In a wrapping machine having means for advancing articles to the wrapping. mechanism, wrapping material feed means which feeds wrap ping material at a lineal speed equal to twice the lineal speed of articles being advanced toward the wrapping mechanism and is arranged to stop the wrapping material feed when the article advancing means reaches a predetermined point in its path, an actuator for starting the feed of said wrapping material having an article contacting member which is disposed at an angle of 45 with the plane along which the articles are being advanced at the instant when the wrapping material feed is actuated, and means for adjusting the position of said actuator with respect to said predetermined point. I

HAROLD H. MOHL. 

